KR101007134B1 - Lighting Device - Google Patents

Abstract

In one embodiment, a lighting apparatus includes a light emitting module including a substrate and a plurality of light emitting devices mounted on the substrate; A case body accommodating the light emitting module; A lens disposed on the light emitting module; A first waterproof ring disposed around the lens; It includes an opening that the lens is exposed, the case cover coupled to the case body and the first waterproof ring.

Lighting device

Description

Lighting Device

Embodiments relate to a lighting device.

Light emitting diodes (LEDs) are a type of semiconductor device that converts electrical energy into light. Light emitting diodes have the advantages of low power consumption, semi-permanent life, fast response speed, safety and environmental friendliness compared to conventional light sources such as fluorescent and incandescent lamps. Accordingly, many researches have been conducted to replace the existing light source with light emitting diodes, and light emitting diodes have been increasingly used as light sources for lighting devices such as liquid crystal display devices, electronic displays, and street lights.

However, in order for a light emitting diode to completely replace existing light sources, it is necessary to overcome problems such as high price, vulnerability to heat or humidity, low color rendering, and low luminance.

The embodiment provides a lighting device excellent in heat dissipation characteristics and waterproof characteristics.

Embodiments provide an illumination device that is easy to obtain the desired light distribution.

The embodiment provides a lighting device having improved withstand voltage characteristics.

The embodiment provides a lighting device that is easy to maintain.

In one embodiment, a lighting apparatus includes a light emitting module including a substrate and a plurality of light emitting devices mounted on the substrate; A case body accommodating the light emitting module; A lens disposed on the light emitting module; A first waterproof ring disposed around the lens; It includes an opening that the lens is exposed, the case cover coupled to the case body and the first waterproof ring.

The embodiment can provide a lighting device having excellent heat dissipation characteristics by using a case having excellent heat dissipation effect and attaching a heat sink to a bottom surface of the light emitting module.

Embodiments can include a waterproof ring, to provide a lighting device excellent in waterproof properties.

Embodiments can provide a lighting device that is easy to obtain a desired light distribution.

Embodiments can provide a lighting device that is easy to replace the lens.

The embodiment can provide a lighting device having improved withstand voltage characteristics.

Embodiments can provide a lighting device that is easy to maintain.

In describing embodiments, where each layer (film), region or structure is described as being formed "on" or "under" a substrate, each layer (film), region or structure In terms of, "on" and "under" include both "directly" and "indirectly". In addition, the criteria for the top or bottom of each layer will be described with reference to the drawings.

Hereinafter, a lighting apparatus according to a first embodiment will be described with reference to the accompanying drawings.

1 is an exploded perspective view of a lighting apparatus according to a first embodiment, FIG. 2 is a perspective view of the lighting apparatus according to the first embodiment from above, and FIG. 3 is a perspective view of the lighting apparatus according to the first embodiment from below. 4 is a cross-sectional view of the lighting apparatus according to the first embodiment. 5 is a view showing a light emitting module of the lighting device, FIG. 6 is a view from above of the gap member of the lighting device, FIG. 7 is a sectional view of a gap member and a light emitting module of the lighting device, and FIG. 8 is the lighting It is a figure which shows an example of the lens of an apparatus.

1 to 4, the lighting apparatus according to the first embodiment includes a case body 30, a heat sink 20 in the inner groove of the case body 30, and a light emitting module 10 on the heat sink 20. ), A gap member 40 on the light emitting module 10, a lens 50 on the gap member 40, and a first waterproof ring 60 on an edge 51 of the lens 50. ), A case cover 70 is included on the first waterproof ring 60 and the case body 30.

The case body 30 and the case cover 70 are coupled to and fixed to each other by a coupling screw 80 to form a case 90 of the lighting device.

The heat sink 20 emits heat generated by the light emitting module 10.

The light emitting module 10 may include a substrate 12, a plurality of light emitting elements 11 mounted on the substrate 12, and a lead electrode 17 transferring power to the plurality of light emitting elements 11. Can be.

The lead electrode 17 may be partially exposed to the outside through a through hole 35 penetrating the bottom surface of the case body 30 to be electrically connected to an external power source.

In order to protect a part of the lead electrode 17 exposed to the outside from the external environment such as heat or moisture, a protective tube 18 may be formed to surround the exposed lead electrode 17, and the lead electrode 17 A connecting terminal 19 is formed at the end of the) so that the lead electrode 17 can be connected to an external power source through the connecting terminal 19.

The lens 50 may adjust the light generated by the light emitting module 10 to obtain a desired light distribution.

The gap member 40 forms a space between the lens 50 and the light emitting module 10 by separating the light emitting module 10 from the lens 50 at a predetermined interval G1 to form a desired light emission angle. And light dispersion.

The first waterproof ring 60 is disposed between the case cover 70 and the lens 50 to prevent moisture from penetrating into the lighting device.

On the other hand, the outer periphery of the circumferential surface of the through hole 35 of the bottom of the case body 30, when the lighting device is attached to the external support member, the moisture is not penetrated through the through hole 35 Two waterproof rings 65 may be formed.

First Embodiment

Hereinafter, the lighting device according to the first embodiment will be described in detail with reference to components.

1 to 4, the case body 30 may have a circular body having an accommodation space, that is, an inner groove. In addition, the case cover 70 may correspond to the case body 30 and may have a circular ring shape having an opening.

The case body 30 and the case cover 70 are coupled to each other to form a case 90. The case 90 forms a body of the lighting device, and is configured to accommodate the heat sink 20, the light emitting module 10, the gap member 40, the lens 50, and the first waterproof ring 60. .

That is, the light emitting module 10 on the storage space of the case body 30, that is, the inner groove, the light emitting module 10 on the heat sink 20, and a gap member on the circumference of the light emitting module 10. 40, a lens 50 on the gap member 40, a first waterproof ring 60, the first waterproof ring 60, and the case body 30 on the edge 51 of the lens 50. The case cover 70 is formed. In this case, the lens 50 is exposed through the opening of the case cover 70.

On the other hand, the shape of the case 90, that is, the shape of the circumferential surface of the case body 30 and the case cover 70 is not limited to a circle, it may be formed in various modifications.

The material of the case 90 is preferably formed of a material having good heat dissipation characteristics, and a metal material, for example, aluminum (Al), nickel (Ni), copper (Cu), silver (Au), tin (Sn). It may be formed of at least one of). In addition, plating or the like may be formed on the surface of the case 90.

Alternatively, the case 90 may be formed of a resin material, but is not limited thereto.

The circumferential surface of the case body 30 may have an inner wall and an outer wall, and a first hole 31, a second hole 32, and a first heat dissipation hole 33 may be formed between the inner wall and the outer wall.

In addition, the circumferential surface of the case cover 70 may also have an inner wall and an outer wall, and a protrusion 71 and a second heat dissipation hole 73 may be formed between the inner wall and the outer wall.

In this case, an outer wall may not be formed on the circumferential surfaces of the case body 30 and the case cover 70 in a portion where the second hole 32 is formed.

Referring to FIG. 4, the protrusion part 71 may include a screw groove 75, and the protrusion part 71 may be inserted into the first hole 31, and the screw groove 75 and the first hole may be provided. The coupling screw 80 is inserted into the hole 31 to allow the case body 30 and the case cover 70 to be firmly fixed and coupled to each other.

The coupling screw 80 is inserted into the screw groove 75 of the protrusion 71 of the case cover 70 from the first hole 31 of the case body 30 so that the head portion 81 faces downward. Can be. As such, by inserting the coupling screw 80 from the first hole 31, the coupling screw 80 may not be exposed to the upper surface of the case cover (70). However, the method of coupling the coupling screw 80 may be variously modified.

As such, since the case 90 may be coupled or separated by the coupling screw 80, when a failure occurs in the lighting device, the maintenance of the coupling screw 80 can be easily performed by inserting or removing the coupling screw 80. Can be.

A screw or the like may be inserted into the second hole 32 of the case body 30 to fasten the lighting device to an external support member such as a wall, a street lamp, or an automobile as necessary. In this case, as described above, the second hole 32 is formed in the circumferential surfaces of the case body 30 and the case cover 70 so as to smoothly insert a screw into the second hole 32. The outer wall may not be formed.

The first heat dissipation hole 33 of the case body 30 and the second heat dissipation hole 73 of the case cover 70 form a heat dissipation hole 93 of the case 90. The heat dissipation hole 93 may widen the surface area of the case 90 to effectively dissipate heat generated from the light emitting module 10, and the lighting device as compared with the case where the heat dissipation hole 93 is not formed. It is possible to reduce the weight of.

3 and 4, the through hole 35 may be formed on a bottom surface of the case body 30. A portion of the lead electrode 17 of the light emitting module 10 is exposed to the outside through the through hole 35 to be connected to an external power source.

The through hole 35 may be formed such that the circumferential surface 36 protrudes from the bottom surface of the case body 30. Since the circumferential surface 36 of the through hole 35 protrudes, the lighting device can be accurately mounted on an external support member.

In addition, a second waterproof ring 65 may be mounted on an outer circumference of the circumferential surface 36 of the through hole 35. The second waterproof ring 65 improves reliability of the lighting device by preventing moisture or the like from penetrating the lighting device through the through hole 35 when the lighting device is attached to the external support member.

In this case, a ring groove 66 corresponding to the shape of the second waterproof ring 65 is formed at an outer circumference of the circumferential surface 36 of the through hole 35 so that the second waterproof ring 65 may be smoothly mounted. Can be.

1, 2 and 4, the inner surface 77 of the case cover 70 may be formed to have an inclination, thereby effectively emitting light emitted from the lens 50. . In addition, the inner surface 77 of the case cover 70 has the heat sink 20, the light emitting module 10, the gap member 40, the lens 50, and the first waterproof ring accommodated in the case 90. (60) Fix it.

5 is a diagram illustrating the light emitting module 10.

1 and 5, the light emitting module 10 transfers power to a substrate 12, a plurality of light emitting elements 11 mounted on the substrate 12, and a plurality of light emitting elements 11. The lead electrode 17 may be included. The light emitting module 10 provides light to the lighting device.

The shape of the light emitting module 10 is formed to correspond to the shape of the inner groove of the case 90 so that the light emitting module 10 is accommodated in the case 90, and may have a disc shape as illustrated, but is not limited thereto.

The substrate 12 is a circuit printed on the insulator, and may include an aluminum substrate, a ceramic substrate, a metal core PCB, a general PCB, and the like.

The surface of the substrate 12 may be formed of a color, for example, white, in which light is efficiently reflected.

The plurality of light emitting devices 11 may be mounted on the substrate 12 in an array form, and the shape and number of the plurality of light emitting devices 11 may be variously modified as necessary.

The plurality of light emitting elements 11 may be light emitting diodes (LEDs). The light emitting diode may selectively use a red LED, a blue LED, a green LED, or a white LED, and may be variously modified and used.

One end of the lead electrode 17 may be connected to the substrate 12. The other end of the lead electrode 17 may be exposed to the outside through a through hole 35 penetrating the bottom surface of the case body 30 to be electrically connected to an external power source. Can be.

In order to protect the other end of the lead electrode 17 exposed to the outside from an external environment such as heat or moisture, a protective tube 18 may be formed to surround the lead electrode 17 exposed to the outside. A connection terminal 19 is formed at the other end of the lead electrode 17 exposed to the lead electrode 17 so that the lead electrode 17 can be connected to an external power source through the connection terminal 19.

On the other hand, the substrate 12 may be further provided with a direct current conversion device for converting and supplying alternating current to a direct current, or a protection device for protecting the lighting device from an electrostatic discharge phenomenon (ESD) or surge (Surge) phenomenon. .

The heat sink 20 may be attached to a bottom surface of the light emitting module 10. The heat sink 20 may radiate heat generated from the light emitting module 10 to transfer the heat to the case 90.

The heat sink 20 is formed of a material having thermal conductivity, and for example, may be formed of any one of a thermally conductive silicon pad or a thermally conductive tape.

1, 4, 6, and 7, a gap member 40 may be formed around the light emitting module 10 and the lens 50. The gap member 40 may have a circular ring shape having an opening so that the light emitting device 11 of the light emitting module 10 is exposed. In addition, an electrode passing portion 41 through which the lead electrode 17 of the light emitting module 10 may pass may be formed in the gap member 40.

The gap member 40 may be formed of an insulating material, for example, a resin material, but is not limited thereto. When the gap member 40 is formed of an insulating material, the breakdown voltage characteristic of the lighting device may be improved.

In addition, the gap member 40 may be formed of a material or color having good reflectance. The color can be white, for example. Accordingly, the gap member 40 may increase the amount of light incident from the light emitting module 10 to the lens 50.

1 and 4, the gap member 40 separates the light emitting module 10 from the lens 50 at a predetermined interval G1. The light distribution angle of the light emitted from the light emitting element 11 of the light emitting module 10 has an angle of about 120 °. In order to obtain a desired light distribution using the light, the light emitting module 10 is disposed between the light emitting module 10 and the lens 50. This is because the constant interval G1 is required.

The gap G1 forms a space 42 between the lens 50 and the light emitting module 10 so as to easily induce a desired light distribution.

The space 42 may be filled with a resin material, but is not limited thereto. In addition, the resin material may include a phosphor.

The inner surface 43 of the gap member 40 may have a predetermined slope. The inclination may be formed in a shape in which the thickness of the inner surface 43 of the gap member 40 becomes thinner from the outer side to the inner side direction. Accordingly, the light generated by the light emitting module 10 may be efficiently guided to the lens 50 along the inner surface 43 of the gap member 40.

4 and 7, the diameter of the gap member 40 may be larger than the diameter of the light emitting module 10, and the module fixing part 45 may be formed around the bottom of the gap member 40. The gap member 40 may be fixed on the light emitting module 10. The module fixing part 45 may not be formed.

On the other hand, the gap member 40 may not be included in the lighting device in some cases.

1, 2, 4, and 8, the lens 50 may be disposed on the gap member 40, and the lens 50 may include a light output unit 52 and an edge 51. It includes.

The light emitting unit 52 emits light by adjusting a light distribution of light generated by the light emitting module 10. Since the light output unit 52 is exposed through the opening of the case cover 70, light may be distributed.

The edge 51 may be formed in the shape of a circular ring around the bottom surface of the light output unit 52, and the first waterproof ring 60 is disposed on the edge 51.

The lens 50 may be injection molded using a light transmissive material, and the material may be made of glass or a plastic material such as poly methyl methacrylate (PMMA) or polycarbonate (PC).

Although the lens 50 is shown as a hemispherical shape, it may be modified in various forms such as concave, convex, if necessary, but is not limited thereto.

8, the bottom surface of the lens 50, that is, the incident surface, may have a concave-convex shape or a prism shape to increase light extraction efficiency and obtain a desired light distribution. The shape of the bottom surface of the lens 50 shown is one example, but is not limited thereto.

In addition, the lens 50 may be easily replaced with a lens having a desired light distribution by separating the case body 30 and the case cover 70. This has the effect of being able to use the lighting device for various purposes.

The first waterproof ring 60 is disposed on the edge 51 of the lens 50.

Referring to FIG. 4, the first waterproof ring 60 may be formed in a circular ring shape to surround the top surface and the circumferential surface of the edge 51. That is, as shown, the first waterproof ring 60 may be formed between the edge 51 of the lens 50 and the inner surface 77 of the case cover 70.

The first waterproof ring 60 may be formed of a material that does not transmit moisture, for example, may be formed of a waterproof rubber or silicone material.

The first waterproof ring 60 fills the space between the lens 50 and the case cover 70 by surrounding the upper and circumferential surfaces of the edge 51, so that moisture is supplied to the lighting device through the space. Since it does not penetrate, there is an effect that the reliability of the lighting device is improved.

3 and 4, the second waterproof ring 65 may be mounted on an outer circumference of the circumferential surface 36 of the through hole 35 formed on the bottom surface of the case body 30. When the second waterproof ring 65 is attached to the external support member, moisture may not penetrate through the through hole 35 to improve reliability of the lighting device.

In this case, a ring groove 66 may be formed at an outer circumference of the circumferential surface 36 of the through hole 35 so that the second waterproof ring 65 may be smoothly mounted.

The second waterproof ring 65 may be formed of a material that does not transmit moisture, for example, may be formed of a waterproof rubber or silicone material.

Second Embodiment

Hereinafter, the lighting device according to the second embodiment will be described in detail with reference to components. In the description of the second embodiment, the same parts as those of the first embodiment will be referred to the first embodiment, and redundant description thereof will be omitted.

9 is a perspective view of the lighting apparatus according to the second embodiment as viewed from above.

Referring to FIG. 9, the case body 30 has a rectangular body having an accommodation space, that is, an inner groove. In addition, the case cover 70 corresponds to the case body 30 and has a rectangular ring shape.

The case body 30 and the case cover 70 are coupled to each other to form a case 90 having a rectangular shape. The case 90 forms a body of the lighting device, and is configured to accommodate the heat sink 20, the light emitting module 10, the gap member 40, the lens 50, and the first waterproof ring 60. .

That is, the shape of the case 90 may be variously modified within the technical scope of the present invention. For example, the shape of the case 90 may be round, square, polygonal, oval, or the like.

Third Embodiment

Hereinafter, the lighting device according to the third embodiment will be described in detail with reference to components. In the description of the third embodiment, the same parts as those of the first embodiment are referred to the first embodiment, and redundant description thereof will be omitted.

10 is a sectional view of a lighting apparatus according to a third embodiment.

Referring to FIG. 10, a circumferential surface of the case body 30 has an inner wall and an outer wall, and a first groove 31, a second hole (not shown), and a first heat dissipation hole (not shown) between the inner wall and the outer wall. ) May be formed.

In addition, a circumferential surface of the case cover 70 may also have an inner wall and an outer wall, and a protrusion 71 and a second heat dissipation hole (not shown) may be formed between the inner wall and the outer wall.

Referring to FIG. 10, the protrusion part 71 may include a screw hole 75, and the protrusion part 71 may be inserted into the first hole 31, and the screw hole 75 and the first hole may be disposed in the first hole 31. A coupling screw 80 is inserted into the groove 31 to allow the case body 30 and the case cover 70 to be firmly fixed and coupled to each other.

The coupling screw 80 is inserted into the first groove 31 of the case body 30 from the screw hole 75 of the protrusion 71 of the case cover 70 so that the head 81 faces upward. Can be. As such, by inserting the coupling screw 80 from the screw hole 75, the coupling screw 80 is exposed to the upper surface of the case cover 70, it is difficult to insert or remove the coupling screw 80 It is easy.

Therefore, when a failure occurs in the lighting device, maintenance can be easily performed by inserting or removing the coupling screw 80.

Meanwhile, the method of coupling and fixing the case cover 70 and the case body 30 is not limited to the first embodiment and the third embodiment, but may be variously modified.

Fourth Embodiment

Hereinafter, the lighting apparatus according to the fourth embodiment will be described in detail with reference to components. In the description of the fourth embodiment, the same parts as in the first embodiment will be referred to the first embodiment, and redundant description thereof will be omitted.

11 is a sectional view of a lighting apparatus according to a fourth embodiment.

Referring to FIG. 11, the case body 30 has a storage space, that is, a body having an inner groove. In addition, the case cover 70 has a ring shape in a form corresponding to the case body 30.

The case body 30 and the case cover 70 are coupled to each other to form a case 90. The case 90 forms a body of the lighting device and is configured to accommodate a heat sink, a light emitting module, a gap member, a lens, a first waterproof ring, and the like.

On the other hand, in the fourth embodiment, instead of the second hole formed to attach the lighting device to the wall or the like in the first embodiment, the thread 32 is formed on the circumferential surface of the case 90. The lighting device may be fastened to an external support member such as a wall, a street lamp, an automobile, and the like by the screw wire 32 as necessary.

That is, a screw groove (not shown) corresponding to the screw line 32 may be formed at a position to which the lighting device of the external support member such as the wall surface, a street lamp, or an automobile is attached, and thus the lighting device may include the screw line ( 32 is inserted into the screw groove (not shown) to be attached to the external support member such as the wall, street lamps, automobiles.

Therefore, it is possible to easily attach the lighting device to an external support member such as the wall surface, a street lamp, an automobile, etc. without using a screw or the like.

Meanwhile, the method of attaching the lighting device to an external support member such as a wall, a street lamp, or an automobile is not limited to the method described in the first and fourth embodiments, and may be variously modified as necessary.

According to the embodiments, it is possible to provide a lighting device having excellent heat dissipation characteristics and waterproof characteristics.

According to the embodiments, it is possible to provide a lighting device in which it is easy to obtain a desired light distribution.

According to the embodiments, it is possible to provide a lighting device having improved withstand voltage characteristics.

According to embodiments, a lighting device that can be easily maintained can be provided.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood that various modifications and applications other than those described above are possible. For example, each component specifically shown in the embodiments of the present invention can be modified and implemented. And differences relating to such modifications and applications will have to be construed as being included in the scope of the invention defined in the appended claims.

1 is an exploded perspective view of a lighting apparatus according to a first embodiment.

2 is a perspective view from above of the lighting apparatus according to the first embodiment.

3 is a perspective view of the lighting apparatus according to the first embodiment as seen from below.

4 is a cross-sectional view of the lighting apparatus according to the first embodiment.

5 is a view showing a light emitting module of the lighting apparatus.

6 is a view of the gap member of the lighting device as viewed from above.

7 is a cross-sectional view of a gap member and a light emitting module of the lighting device.

8 is a diagram illustrating an example of a lens of the lighting apparatus.

9 is a perspective view of the lighting apparatus according to the second embodiment as viewed from above.

10 is a sectional view of a lighting apparatus according to a third embodiment.

11 is a sectional view of a lighting apparatus according to a fourth embodiment.

Claims (14)

A light emitting module comprising a substrate and a light emitting device mounted on the substrate; A case body accommodating the light emitting module; A gap member formed larger than the substrate; A lens disposed on the light emitting module; A first ring disposed around the lens; And A case cover coupled to the case body and having an opening; The case body includes a coupling groove in which the gap member is seated therein, the side surface of the gap member is supported by the case body. The method of claim 1, And a heat sink disposed under the substrate of the light emitting module. The method of claim 1, The gap member is disposed between the light emitting module and the lens, the illumination device spaced apart between the light emitting module and the lens. The method of claim 1, A through hole formed in a bottom surface of the case body; And And a lead electrode electrically connected to the substrate and exposed to the outside through the through hole. The method of claim 4, wherein Lighting device including a second ring on the outer periphery of the circumferential surface of the through hole formed to protrude on the bottom surface of the case body. The method of claim 1, A circumferential surface of the case body has an inner wall and an outer wall, and at least one first hole formed between the inner wall and the outer wall; A protrusion formed around the case cover and inserted into the first hole and including a screw groove; And Lighting device including a coupling screw is inserted into the screw groove through the first hole. The method of claim 1, A circumferential surface of the case body has an inner wall and an outer wall, and at least one first groove formed between the inner wall and the outer wall; A protrusion formed around the case cover and inserted into the first groove and including a screw hole; And And a coupling screw inserted into and fastened to the first groove through the screw hole. The method of claim 1, Lighting device including at least one second hole is screwed to the outer support member around the case body. The method of claim 1, Lighting device including a screw thread coupled to the outer support member on the circumferential surface of the case body. The method of claim 1, At least one heat dissipation hole is formed around the case body and the case cover to emit heat generated from the light emitting module. The method of claim 1, The first ring is formed to surround the upper surface and the peripheral surface of the edge of the lens, Illumination device disposed between the edge of the lens and the inner surface of the case cover. The method of claim 5, The first ring or the second ring is a lighting device formed of a waterproof rubber or silicone material. The method of claim 1, The inner surface of the case cover is formed to have a slope. The method of claim 1, The case body and the case cover is a lighting device of any one of the shape of the circumferential surface circular, rectangular, polygonal, oval.

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